J. Edmison scite author profile

J. Edmison

5Publications

81Citation Statements Received

19Citation Statements Given

How they've been cited

155

How they cite others

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Virginia Tech

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Using piezoelectric materials for wearable electronic textiles

Edmison

Jones

Nakad

et al.

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An open issue for electronic textiles (e-textiles) used for wearable computing is the choice of materials. This paper describes the desirable characteristics of piezoelectric materials for wearable e-textiles, including shape sensing, sound detection, and sound emission. The paper then describes an initial prototype of a glove for user input that employs piezoelectrics to sense the movement of the hands to illustrate the design issues involved in using piezoelectrics.

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Towards a design framework for wearable electronic textiles

Martin

Jones

Edmison

et al.

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Analyzing the use of e-textiles to improve application performance

Jones

Martin

Nakad

et al. 2003

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E-textiles are an alternative to radio-based personal area networks, with potentially significant advantages in hardware cost and energy consumption, through a reduction in the number of communication modules and the energy consumed by data transmission. This paper presents a methodology based on simulation and physical experimentation for quantifying this savings on a large etextile that determines the bearing/location of one or more distant audible targets.

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E-Textile Based Automatic Activity Diary for Medical Annotation and Analysis

Edmison

Lehn

Jones

et al.

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Design and Characterization of a Hardware Encryption Management Unit for Secure Computing Platforms

Mahar

Athanas

Craven

et al. 2006

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Software protection is increasingly necessary for a number of applications, ranging from commercial systems and digital content distributors, to military systems exposed in the field of operations. As computing devices become more pervasive, and software more complex, insufficiencies with current software protection mechanisms have arisen. Software-only and data-only protection systems have resulted in broken systems that are vulnerable to loss of software confidentiality and integrity.A growing number of researchers have suggested that hardware encryption mechanisms be employed to enforce software protection. Although there are several competing architectures, few offer the necessary protection while remaining compatible with modern computing systems and models. The Virginia Tech Secure Software Platform is the first architecture to achieve both increased protection and usability.This thesis presents the design and implementation of a fast, flexible Encryption Management Unit (EMU) for Virginia Tech Secure Software and compatible platforms. The design is capable of providing decryption of program instructions residing in page-sized sections of memory, without modification to the core processor. The effect of the EMU is modeled with varying application types and system loads. Lastly, a benchmark designed to measure actual performance was created to measure the actual performance of the EMU and validate the models.

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J. Edmison

Using piezoelectric materials for wearable electronic textiles

Towards a design framework for wearable electronic textiles

Analyzing the use of e-textiles to improve application performance

E-Textile Based Automatic Activity Diary for Medical Annotation and Analysis

Design and Characterization of a Hardware Encryption Management Unit for Secure Computing Platforms

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